<a href="http://www.seas.harvard.edu/news-events/press-releases/pop-up-flying-robots">Harvard researchers</a> recently created a miniature mechanized bee called the Monolithic Bee or MoBee using a new technology that produces self-assembling three dimensional machines from flat sets of components. The bee <a href="http://inhabitat.com/6-robot-designs-that-will-better-our-future/">robot</a> is assembled using layers of differing materials on an assembly scaffold - the body of the bee folds together like a pop-up book, and once released from the scaffold it becomes an autonomous, ridged 3-D object whose<a href="http://inhabitat.com/researchers-developing-cyborg-insects-that-draw-energy-from-their-own-wings/"> wings flap</a> when electrical current is applied. The technology could be used to create complex devices using manufacturing techniques similar to those used to make circuit boards....<br><br><a href='http://inhabitat.com/harvards-pop-up-bee-robots-use-new-process-to-print-complex-machines/'>READ ARTICLE</a>

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Harvard Microrobotics Laboratory MoBee

<a href="http://www.seas.harvard.edu/news-events/press-releases/pop-up-flying-robots">Harvard researchers</a> recently created a miniature mechanized bee called the Monolithic Bee or MoBee using a new technology that produces self-assembling three dimensional machines from flat sets of components. The bee <a href="http://inhabitat.com/6-robot-designs-that-will-better-our-future/">robot</a> is assembled using layers of differing materials on an assembly scaffold - the body of the bee folds together like a pop-up book, and once released from the scaffold it becomes an autonomous, ridged 3-D object whose<a href="http://inhabitat.com/researchers-developing-cyborg-insects-that-draw-energy-from-their-own-wings/"> wings flap</a> when electrical current is applied. The technology could be used to create complex devices using manufacturing techniques similar to those used to make circuit boards....<br><br><a href='http://inhabitat.com/harvards-pop-up-bee-robots-use-new-process-to-print-complex-machines/'>READ ARTICLE</a>

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Harvard Microrobotics Laboratory MoBee

<a href="http://www.seas.harvard.edu/news-events/press-releases/pop-up-flying-robots">Harvard researchers</a> recently created a miniature mechanized bee called the Monolithic Bee or MoBee using a new technology that produces self-assembling three dimensional machines from flat sets of components. The bee <a href="http://inhabitat.com/6-robot-designs-that-will-better-our-future/">robot</a> is assembled using layers of differing materials on an assembly scaffold - the body of the bee folds together like a pop-up book, and once released from the scaffold it becomes an autonomous, ridged 3-D object whose<a href="http://inhabitat.com/researchers-developing-cyborg-insects-that-draw-energy-from-their-own-wings/"> wings flap</a> when electrical current is applied. The technology could be used to create complex devices using manufacturing techniques similar to those used to make circuit boards....<br><br><a href='http://inhabitat.com/harvards-pop-up-bee-robots-use-new-process-to-print-complex-machines/'>READ ARTICLE</a>

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Harvard Microrobotics Laboratory MoBee

<a href="http://www.seas.harvard.edu/news-events/press-releases/pop-up-flying-robots">Harvard researchers</a> recently created a miniature mechanized bee called the Monolithic Bee or MoBee using a new technology that produces self-assembling three dimensional machines from flat sets of components. The bee <a href="http://inhabitat.com/6-robot-designs-that-will-better-our-future/">robot</a> is assembled using layers of differing materials on an assembly scaffold - the body of the bee folds together like a pop-up book, and once released from the scaffold it becomes an autonomous, ridged 3-D object whose<a href="http://inhabitat.com/researchers-developing-cyborg-insects-that-draw-energy-from-their-own-wings/"> wings flap</a> when electrical current is applied. The technology could be used to create complex devices using manufacturing techniques similar to those used to make circuit boards....<br><br><a href='http://inhabitat.com/harvards-pop-up-bee-robots-use-new-process-to-print-complex-machines/'>READ ARTICLE</a>

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Harvard Microrobotics Laboratory MoBee

<a href="http://www.seas.harvard.edu/news-events/press-releases/pop-up-flying-robots">Harvard researchers</a> recently created a miniature mechanized bee called the Monolithic Bee or MoBee using a new technology that produces self-assembling three dimensional machines from flat sets of components. The bee <a href="http://inhabitat.com/6-robot-designs-that-will-better-our-future/">robot</a> is assembled using layers of differing materials on an assembly scaffold - the body of the bee folds together like a pop-up book, and once released from the scaffold it becomes an autonomous, ridged 3-D object whose<a href="http://inhabitat.com/researchers-developing-cyborg-insects-that-draw-energy-from-their-own-wings/"> wings flap</a> when electrical current is applied. The technology could be used to create complex devices using manufacturing techniques similar to those used to make circuit boards....<br><br><a href='http://inhabitat.com/harvards-pop-up-bee-robots-use-new-process-to-print-complex-machines/'>READ ARTICLE</a>

5

Harvard Microrobotics Laboratory MoBee

<a href="http://www.seas.harvard.edu/news-events/press-releases/pop-up-flying-robots">Harvard researchers</a> recently created a miniature mechanized bee called the Monolithic Bee or MoBee using a new technology that produces self-assembling three dimensional machines from flat sets of components. The bee <a href="http://inhabitat.com/6-robot-designs-that-will-better-our-future/">robot</a> is assembled using layers of differing materials on an assembly scaffold - the body of the bee folds together like a pop-up book, and once released from the scaffold it becomes an autonomous, ridged 3-D object whose<a href="http://inhabitat.com/researchers-developing-cyborg-insects-that-draw-energy-from-their-own-wings/"> wings flap</a> when electrical current is applied. The technology could be used to create complex devices using manufacturing techniques similar to those used to make circuit boards....<br><br><a href='http://inhabitat.com/harvards-pop-up-bee-robots-use-new-process-to-print-complex-machines/'>READ ARTICLE</a>

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Harvard Microrobotics Laboratory MoBee

<a href="http://www.seas.harvard.edu/news-events/press-releases/pop-up-flying-robots">Harvard researchers</a> recently created a miniature mechanized bee called the Monolithic Bee or MoBee using a new technology that produces self-assembling three dimensional machines from flat sets of components. The bee <a href="http://inhabitat.com/6-robot-designs-that-will-better-our-future/">robot</a> is assembled using layers of differing materials on an assembly scaffold - the body of the bee folds together like a pop-up book, and once released from the scaffold it becomes an autonomous, ridged 3-D object whose<a href="http://inhabitat.com/researchers-developing-cyborg-insects-that-draw-energy-from-their-own-wings/"> wings flap</a> when electrical current is applied. The technology could be used to create complex devices using manufacturing techniques similar to those used to make circuit boards....<br><br><a href='http://inhabitat.com/harvards-pop-up-bee-robots-use-new-process-to-print-complex-machines/'>READ ARTICLE</a>

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Harvard Microrobotics Laboratory MoBee

Harvard researchers recently created a miniature mechanized bee called the Monolithic Bee or MoBee using a new technology that produces self-assembling three dimensional machines from flat sets of components. The bee robot is assembled using layers of differing materials on an assembly scaffold - the body of the bee folds together like a pop-up book, and once released from the scaffold it becomes an autonomous, ridged 3-D object whose wings flap when electrical current is applied. The technology could be used to create complex devices using manufacturing techniques similar to those used to make circuit boards....